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Transcript 
7/20/2009
Blood Vessels
Contractions of the heart generate
blood pressure and heart valves
prevent back flow of blood in the
circulatory system.
Blood vessels are
organs that carry
the blood
throughout
your body.
Each heart beat pushes about 90
milliliters of oxygenated blood from the
heart into the aorta, the body's largest
blood vessel.
• From there, the blood flows to smaller
arteries and then capillaries.
• Eventually, it transfers its oxygen to body
cells and returns back to the heart through
the veins.
Did you know that your blood
circulates through about 90,000
kilometers of blood vessels in your
body?
A kilometer is 1,000 meters or
0.621 miles!
There are three types of blood vessels:
arteries, capillaries, and veins.
Arteries are blood vessels that carry
blood from the heart.
• With the exception of the pulmonary
artery, they carry oxygen-rich blood.
• Each time the heart contracts, blood is
pumped out at high pressure.
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7/20/2009
Arteries are made of three layers of
tissues that help them withstand that
pressure.
Veins are aided in pushing blood back
toward the heart by the skeletal muscles
as they contract and squeeze nearby
veins.
Veins are blood vessels that carry blood
toward the heart.
• With the exception of
the pulmonary veins,
they
y carry
y oxygenyg
poor blood.
Like arteries, veins have three tissue
layers.
But veins have thinner walls because
they do not receive blood directly from
the heart.
Capillaries are the smallest blood vessels
where the exchange of materials with
cells takes place.
• The largest veins have one-way valves to
keep blood flowing toward the heart.
heart
• They form a net-like structure throughout
your tissues.
y
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Capillary walls are only one cell thick and
may be so narrow that blood cells must pass
through in single file.
• Oxygen and other materials diffuse through
capillary walls into the tissues and then
into cells.
Blood pressure is a measure of the force
of blood pushing against the walls of
the arteries.
• It is measured in millimeters of mercury
(mm Hg).
• A pressure of 100 mm Hg means the
pressure is great enough to push a
narrow column of mercury 100 mm
high.
Contractions of the heart generate blood
pressure.
• The rhythmic change in blood pressure is
called a pulse.
• Blood pressure keeps the blood flowing in
th right
the
i ht direction.
di ti
• Valves prevent backflow of blood.
Normal blood pressure is 120/80 mm Hg.
• The top number is called the systolic
pressure; the lower number is called
diastolic pressure.
• Systolic pressure is the maximum force
exerted against artery walls each time the
heart contracts.
• Diastolic pressure is the force exerted on
the arteries when the heart relaxes.
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7/20/2009
A sphyg·mo·ma·nom·e·ter is used to
measure blood pressure.
• The cuff is pumped up with
air to restrict blood flow in
the arm.
• As the pressure in the cuff
is released, blood starts
flowing again.
• You can hear the flow in a
stethoscope.
The number at which blood starts
flowing is the measure of the systolic
pressure.
• Pressure in the cuff continues to release.
• The p
point at which no sound is heard
indicates the pressure in the system when
the heart is relaxed— the diastolic reading
Blood pressure increases with age.
• The blood vessels of an infant are very
elastic.
• As the elasticity of a person’s blood
• vessels
l d
decreases, their
h i blood
bl d pressure
increases; this is what typically happens
with age.
Those arteries branch into smaller and
smaller arteries and into
capillaries. (9).
From there, blood flows into
the lungs where it picks up
oxygen (4).
When the right ventricle
contracts, blood is pumped
through a valve and into the
pulmonary artery (3).
The inferior vena cava carries
oxygen-poor blood from the lower
body parts (1).
When the right atrium contracts,
the blood goes through a valve and
into the right ventricle (2).
In the capillaries, blood cells release their
oxygen which diffuses into tissues. Carbon
dioxide and water are picked up from the body
cells. The now oxygen-poor blood flows through
the capillaries and into small veins (10).
When the left ventricle contracts,
blood is pumped through a valve
and into the aorta (7).
The
h aorta branches
b
h into
arteries that lead to upper
and lower parts of the body (8).
The now oxygen-rich blood is
carried back to the left atrium
through the pulmonary veins
(5).
When the left atrium contracts, blood
goes through a valve into the left
ventricle (6)
4
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